TOREX XCL205, XCL206, XCL207 User Manual

1/26

XCL205/XCL206/XCL207

Series

Inductor Built-in Step-Down “micro DC/DC” Converters

0

20

40

60

80

100

0.1 1 10 100 1000

Output Current:I

OUT

(mA)

Efficency:EFFI(%

)

VIN= 5.5V

5.0V

4.2V

VOUT=3.3V

(

PWM

)

XCL206/XCL207(PWM/PFM

)

XCL205/XCL207

!TYPICAL PERFORMANCE

CHARACTERISTICS

"GreenOperation Compatible

!APPLICATIONS

#Mobile phones, Smart phones

#Bluetooth Headsets

#WiMAX PDAs, MIDs, UMPCs

#Portable game consoles

#Digital cameras, Camcorders

#Electronic dictionaries

!TYPICAL APPLICATION CIRCUIT

ETR2801-006

!GENERAL DESCRIPTION

The XCL205/XCL206/XCL207 series is a synchronous step-down micro DC/DC converter which integrates an inductor and a
control IC in one tiny package (2.5mm$2.0mm, H=1.0mm). A stable power supply with an output current of 600mA is
configured using only two capacitors connected externally.
Operating voltage range is from 2.0V to 6.0V. Output voltage is internally set in a range from 0.8V to 4.0V in increments of

0.05V. The device is operated by 3.0MHz, and includes 0.42%P-channel driver transistor and 0.52%N-channel switching
transistor. As for operation mode, the XCL205 series is PWM control, the XCL206 series is automatic PWM/PFM switching
control and the XCL207 series can be manually switched between the PWM control mode and the automatic PWM/PFM
switching control mode, allowing fast response, low ripple and high efficiency over the full range of loads (from light load to
heavy load). During stand-by, the device is shutdown to reduce current consumption to as low as 1.0&A or less. With the
built-in UVLO (Under Voltage Lock Out) function, the internal driver transistor is forced OFF when input voltage becomes 1.4V
or lower. XCL205B/XCL206B/XCL207B series provide short-time turn-on by the soft start function internally set in 0.25 ms
(TYP). XCL205B(C) /XCL206 B(C) / XCL207B(C) integrate C

L

auto discharge function which enables the electric charge

stored at the output capacitor C

L

to be discharged via the internal auto-discharge switch located between the LX and VSS pins.

When the devices enter stand-by mode, output voltage quickly returns to the V

SS

level as a result of this function.

V

IN

Vss

CE/MODE

L

X

V

ss

V

OUT

CL

10&F

4.7&F

CIN

L1

L2

600mA

(TOP VIEW)

* “L1 and L

X

”, and “L2 and V

OUT

” is connected by wiring.

!FEATURES

Ultra Small : 2.5mm$2.0mm, H=1.0mm

Input Voltage : 2.0V ~ 6.0V

Output Voltage : 0.8V ~ 4.0V (+2.0%)

High Efficiency (V

OUT

=1.8V) : 85% (TYP.)

Output Current : 600mA

Oscillation Frequency : 3.0MHz (+15%)

Maximum Duty Cycle
Capacitor
CE Function

Protection Circuits

: 100%
: Low ESR Ceramic
: Active High
Soft-Start Circuit Built-In

C

L

High Speed Auto Discharge

:Current Limiter Circuit Built-In

(Constant Current & Latching)

Control Methods : PWM (XCL205)

PWM/PFM Auto (XCL206)

PWM/PFM Manual (XCL207)

* Performance depends on external components and wiring on the PCB.

XCL205A333xx/XCL206A333xx/XCL207A333xx

XCL205/206/207 Series

PIN NUMBER PIN NAME

FUNCTION

1 Lx Switching Output

2,5 VSS Ground

3 V

OUT

Output Voltage

4 CE / MODE Chip Enable & Mode Switch
6 VIN Power Input
7 L1
8 L2

Inductor Electrodes

DESIGNATOR DESCRIPTION SYMBOL DESCRIPTION

A

No CL auto discharge, Standard soft-start

B

CL auto discharge, High speed soft-start

'

Functions selection
(All CE active high)

C

C

L

auto discharge, Standard soft-start

10 1.0V
12 1.2V
14 1.4V
15 1.5V
18 1.8V
19 1.9V
25 2.5V
28 2.8V
2L 2.85V
30 3.0V

()

Output Voltage

(*2)

33 3.3V

* Oscillation Frequency

3 3.0MHz

+,--

Packages

Taping Type

(*3)

AR-G XCL205/6/7

!"##"$ %&'()

*+

*,

-

.

%

&/

0

%

11

2

3'4$"5'

6

+

*7

, % 11

8 %

"9#

* It should be connected the V

SS pin (No. 2 and 5) to the GND pin.

* If the dissipation pad needs to be connected to other pins, it should be

connected to the GND pin.

* Please refer to pattern layout page for the connecting to PCB.

(*1)

The “-G” suffix indicates that the products are Halogen and Antimony free as well as being fully RoHS compliant.

(*2)

When other output voltages are needed, please contact your local Torex sales office for more information.

Output voltage range is 0.8~4.0V.

(*3)

The device orientation is fixed in its embossed tape pocket.

XCL205/XCL206/XCL207

Series

!PIN CONFIGURATION

!PIN ASSIGNMENT

!PRODUCT CLASSIFICATION

#Ordering Information

XCL205'()*+,-­XCL206'()*+,-­XCL207'()*+,--

(*1)

Fixed PWM control

(*1)

PWM / PFM automatic switching control

(*1)

Manual Mode Selection Pin (Semi-custom)

2/26

PARAMETER SYMBOL RATINGS UNITS

VIN Pin Voltage VIN - 0.3 ~ 6.5 V

LX Pin Voltage VLX - 0.3 ~ VIN + 0.3/6.5 V

V

OUT

Pin Voltage V

OUT

- 0.3 ~ 6.5 V

CE/MODE Pin Voltage VCE - 0.3 ~ 6.5 V

LX Pin Current ILX 01500 mA

Power Dissipation Pd 1000*1 mW

Operating Temperature Range Topr - 40 ~ + 85 .

Storage Temperature Range Tstg - 40 ~ + 105 .

#XCL205A / XCL206A / XCL207A series

NOTE: The XCL205 offers a fixed PWM control, a signal from CE/MODE Control Logic to PWM/PFM Selector is fixed to "L" level inside.

The XCL206 control scheme is PWM/PFM automatic switching, a signal from CE/MODE Control Logic to PWM/PFM Selector is fixed to

"H" level inside. The diodes placed inside are ESD protection diodes and parasitic diodes.

3'4$"5'

:,

:+

';;<;=>?@A

%;BC=DEFG
H<CF=HFI;FJ
3'

KGI1B
3<?@BL1IFE<L

K($4KM$
HBNBOF<;

3P;;BLF=MBBQRIOS
3P;;BLF=*E?EF

K($
3<?@I;IF<;

*<TEO

HULOG
!PCCB;
5;EVB

:8

:6

9%*"

9%*"=3?@

:I?@=(IVB
WBLB;IF<;
"H3

*7

%

HH

%&/

%"9#

3'4$"5'
3<LF;<N
*<TEO

%HX":#

M!

3M!

&LQPOF<;

%HH

*, *+

*1: The power dissipation figure shown is PCB mounted (40mm$40mm, t=1.6mm, Glass Epoxy FR-4).

Please refer to page 16 for details.

#XCL205B / XCL206B / XCL207B / XCL205C / XCL206C / XCL207C series

3'4$"5'

:,

:+

';;<;=>?@A

%;BC=DEFG
H<CF=HFI;FJ
3'

KGI1B
3<?@BL1IFE<L

K($4KM$
HBNBOF<;

3P;;BLF=MBBQRIOS
3P;;BLF=*E?EF

K($
3<?@I;IF<;

*<TEO

HULOG
!PCCB;
5;EVB

:8

:6

9%*"

9%*"=3?@

:I?@=(IVB
WBLB;IF<;
"H3

*7

%HH

%&/

%"9#

3'4$"5'
3<LF;<N
*<TEO

3'4

%HX":#

M!

3M!

%HH

&LQPOF<;

*, *+

NOTE: The XCL205 offers a fixed PWM control, a signal from CE/MODE Control Logic to PWM/PFM Selector is fixed to "L" level inside.

The XCL206 control scheme is PWM/PFM automatic switching, a signal from CE/MODE Control Logic to PWM/PFM Selector is fixed to

"H" level inside. The diodes placed inside are ESD protection diodes and parasitic diodes.

XCL205/XCL206/XCL207

!BLOCK DIAGRAM

Series

!ABSOLUTE MAXIMUM RATINGS

Ta = 25.

3/26

PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS

CIRCUIT

Output Voltage V

OUT

When connected to external components,
V

IN=VCE

=5.0V, I

OUT

=30mA

1.176 1.200 1.224 V '

Operating Voltage Range VIN 2.0 - 6.0 V '

Maximum Output Current I

OUTMAX

V

IN=VOUT(T)

+2.0V, VCE=1.0V

When connected to external components

(*9)

600 - - mA '

UVLO Voltage V

UVLO

V

CE=VIN,VOUT

=0V,

Voltage which Lx pin holding “L” level

(*1, *11)

1.00 1.40 1.78 V )

Supply Current (XCL205) - 46 65

Supply Current (XCL206, XCL207)

IDD VIN=VCE=5.0V, V

OUT=VOUT(T)

$1.1V

- 21 35

&A (

Stand-by Current I

STB

VIN=5.0V, VCE=0V, V

OUT=VOUT(T)

$1.1V - 0 1.0 &A (

Oscillation Frequency f

OSC

When connected to external components,
V

IN=VOUT(T)

+2.0V,VCE=1.0V, I

OUT

=100mA

2550 3000 3450 kHz '

PFM Switching Current

(*12)

I

PFM

When connected to external components,
V

IN=VOUT(T)

+2.0V, VCE=VIN , I

OUT

=1mA

(*12)

190 260 350 mA 1

PFM Duty Limit

(*12)

DTY

LIMIT_PFM

V

CE

= VIN=(C-1) I

OUT

=1mA

(*12)

- 200 300 % '

Maximum Duty Cycle

D

MAX

V

IN=VCE

=5.0V, V

OUT=VOUT (T)

$0.9V 100 - - % )

Minimum Duty Cycle

D

MIN

V

IN=VCE

=5.0V, V

OUT=VOUT (T)

$1.1V - - 0 % )

Efficiency

EFFI

When connected to external components,
V

CE=VIN2VOUT (T)

+1.2V, I

OUT

= 100mA

- 82 - % '

Lx SW "H" ON Resistance 1 R

L3H

VIN=VCE=5.0V, V

OUT

=0V, ILX=100mA

(*3)

- 0.35 0.55 % *

Lx SW "H" ON Resistance 2 R

L3H

VIN=VCE=3.6V, V

OUT

=0V, ILX=100mA

(*3)

- 0.42 0.67 % *

Lx SW "L" ON Resistance 1 R

L3L

VIN=VCE=5.0V

(*4)

- 0.45 0.66 % -

Lx SW "L" ON Resistance 2 R

L3L

VIN=VCE=3.6V,

(*4)

- 0.52 0.77 % -

Lx SW "H" Leak Current

(*5)

ILeakH VIN=V

OUT

=5.0V, VCE=0V, LX=0V - 0.01 1.0 &A +

Lx SW "L" Leak Current

(*5)

ILeakL VIN=V

OUT

=5.0V, VCE=0V, LX= 5.0V - 0.01 1.0 &A +

Current Limit

(*10)

I

LIM

VIN=VCE=5.0V, V

OUT=VOUT (E)

$0.9V

(*8)

900 1050 1350 mA ,

Output Voltage

Temperature Characteristics

4

V

OUT

/

(V

OUT

54

topr)

I

OUT

=30mA

-40./Topr/85.

- 0100 - ppm/ . '

CE "H" Voltage V

CEH

V

OUT

=0V, Applied voltage to VCE,

Voltage changes Lx to “H” level

(*11)

0.65 - V

IN

V )

CE "L" Voltage V

CEL

V

OUT

=0V, Applied voltage to VCE,

Voltage changes Lx to “L” level

(*11)

V

SS

- 0.25 V )

PWM "H" Level Voltage

(*13)

V

PWMH

When connected to external components,
I

OUT

=1mA

(*6),

Voltage which oscillation

frequency becomes 2550kHz/f

OSC

/3450kHz

(*13)

- - VIN - 1.0 V '

PWM "L" Level Voltage

(*13)

V

PWML

When connected to external components,
I

OUT

=1mA

(*6)

, Voltage which oscillation

frequency becomes f

OSC

62550kHz

(*13)

V

IN

-

0.25

- - V '

CE "H" Current I

CEH

VIN=VCE=5.0V, V

OUT

=0V - 0.1 - 0.1 &A +

CE "L" Current I

CEL

VIN=5.0V, VCE=0V, V

OUT

=0V - 0.1 - 0.1 &A +

Soft Start Time tSS

When connected to external components,
V

CE

=0V7VIN , I

OUT

=1mA

0.5 0.9 2.5 ms '

Latch Time t

LAT

V

IN

=

VCE=5.0V,

V

OUT

=0.8$V

OUT

(T)

Short Lx at 1% resistance

(*7)

1.0 - 20 ms -

Short Protection

Threshold Voltage

V

SHORT

Sweeping V

OUT

, VIN=VCE=5.0V, Short Lx at

1% resistance, V

OUT

voltage which Lx becomes “L”

level within 1ms

0.450 0.600 0.750 V -

Inductance Value L Test frequency=1MHz - 1.5 - &H

Allowed Inductor Current IDC 8T=40. - 1000 - mA

Test conditions: Unless otherwise stated, VIN=5.0V, VOUT (T)=Nominal Voltage
NOTE:

*1: Including hysteresis operating voltage range.
*2: EFFI = { ( output voltage$output current ) 9 ( input voltage$input current) }$100
*3: ON resistance (%)= (V

IN - Lx pin measurement voltage) 9 100mA

*4: Design value

*5: When temperature is high, a current of approximately 10&A (maximum) may leak.

*6: The CE/MODE pin of the XCL207 series works also as an external switching pin of PWM control and PWM/PFM control. When the IC is in the

operation, control is switched to the automatic PWM/PFM switching mode when the CE/MODE pin voltage is equal to or greater than V

IN minus

0.3V, and to the PWM mode when the CE/MODE pin voltage is equal to or lower than V

IN minus 1.0V and equal to or greater than VCEH.

*7: Time until it short-circuits V

OUT with GND via 1%of resistor from an operational state and is set to Lx=0V from current limit pulse generating.

*8: When V

IN is less than 2.4V, limit current may not be reached because voltage falls caused by ON resistance.

*9: When the difference between the input and the output is small, some cycles may be skipped completely before current maximizes.

If current is further pulled from this state, output voltage will decrease because of P-ch driver ON resistance.
*10: Current limit denotes the level of detection at peak of coil current.
*11: “H”=V

IN~VIN-1.2V, “L”=+0.1V~-0.1V

*12: I

PFM and DTY

LIMIT_PFM

are defined only for the XCL206 and XCL207 series which have PFM control function. (Not for the XCL 205 series)

*13: V

PWMH and VPWML are defined onl

y

for the XCL207 series. (They are not used in the XCL205/and XCL206 series)

XCL205/XCL206/XCL207

Series

!ELECTRICAL CHARACTERISTICS

#XCL205A123AR/XCL206A123AR/XCL207A123AR, V

OUT

=1.2V, f

4/26

=3.0MHz, Ta=25Y=

OSC

PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS

CIRCUIT

Output Voltage V

OUT

When connected to external components,
V

IN=VCE

=5.0V, I

OUT

=30mA

1.764 1.800 1.836 V '

Operating Voltage Range VIN 2.0 - 6.0 V '

Maximum Output Current I

OUTMAX

V

IN=VOUT(E)

+2.0V, VCE=1.0V

When connected to external components

(*9)

600 - - mA '

UVLO Voltage V

UVLO

V

CE=VIN,VOUT

=0V,

Voltage which Lx pin holding “L” level

(*1, *11)

1.00 1.40 1.78 V )

Supply Current (XCL205) - 46 65

Supply Current (XCL206, XCL207)

I

DD

VIN=VCE=5.0V, V

OUT=VOUT(T)

$1.1V

- 21 35

&A (

Stand-by Current I

STB

VIN=5.0V, VCE=0V, V

OUT=VOUT(T)

$1.1V - 0 1.0 &A (

Oscillation Frequency f

OSC

When connected to external components,
V

IN=VOUT(T)

+2.0V,VCE=1.0V, I

OUT

=100mA

2550 3000 3450 kHz '

PFM Switching Current

(*12)

I

PFM

When connected to external components,
V

IN=VOUT(T)

+2.0V, VCE=VIN , I

OUT

=1mA

(*12)

170 220 270 mA 1

PFM Duty Limit

(*12)

DTY

LIMIT_PFM

V

CE

= VIN=(C-1) I

OUT

=1mA

(*12)

- 200 300 % '

Maximum Duty Cycle D

MAX

VIN=VCE=5.0V, V

OUT=VOUT (T)

$0.9V 100 - - % )

Minimum Duty Cycle D

MIN

VIN=VCE=5.0V, V

OUT=VOUT (T)

$1.1V - - 0 % )

Efficiency EFFI

When connected to external components,
V

CE=VIN2VOUT (T)

+1.2V, I

OUT

= 100mA

- 85 - % '

Lx SW "H" ON Resistance 1 R

L3H

VIN=VCE=5.0V, V

OUT

=0V, ILX=100mA

(*3)

- 0.35 0.55 % *

Lx SW "H" ON Resistance 2 R

L3H

VIN=VCE=3.6V, V

OUT

=0V, ILX=100mA

(*3)

- 0.42 0.67 % *

Lx SW "L" ON Resistance 1 R

L3L

VIN=VCE=5.0V

(*4)

- 0.45 0.66 % -

Lx SW "L" ON Resistance 2 R

L3L

VIN=VCE=3.6V,

(*4)

- 0.52 0.77 % -

Lx SW "H" Leak Current

(*5)

ILeakH VIN=V

OUT

=5.0V, VCE=0V, LX=0V - 0.01 1.0 &A +

Lx SW "L" Leak Current

(*5)

ILeakL VIN=V

OUT

=5.0V, VCE=0V, LX= 5.0V - 0.01 1.0 &A +

Current Limit

(*10)

I

LIM

VIN=VCE=5.0V, V

OUT=VOUT (E)

$0.9V

(*8)

900 1050 1350 mA ,

Output Voltage

Temperature Characteristics

4

V

OUT

/

(V

OUT

54

topr)

I

OUT

=30mA

-40./Topr/85.

- 0100 - ppm/ . '

CE "H" Voltage V

CEH

V

OUT

=0V, Applied voltage to VCE,

Voltage changes Lx to “H” level

(*11)

0.65 - V

IN

V )

CE "L" Voltage V

CEL

V

OUT

=0V, Applied voltage to VCE,

Voltage changes Lx to “L” level

(*11)

V

SS

- 0.25 V )

PWM "H" Level Voltage

(*13)

V

PWMH

When connected to external components,
I

OUT

=1mA

(*6),

Voltage which oscillation

frequency becomes 2550kHz/f

OSC

/3450kHz

(*13)

- - VIN - 1.0 V '

PWM "L" Level Voltage

(*13)

V

PWML

When connected to external components,
I

OUT

=1mA

(*6)

, Voltage which oscillation

frequency becomes f

OSC

62550kHz

(*13)

V

IN

-

0.25

- - V '

CE "H" Current I

CEH

VIN=VCE=5.0V, V

OUT

=0V - 0.1 - 0.1 &A +

CE "L" Current I

CEL

VIN=5.0V, VCE=0V, V

OUT

=0V - 0.1 - 0.1 &A +

Soft Start Time tSS

When connected to external components,
V

CE

=0V7VIN , I

OUT

=1mA

0.5 0.9 2.5 ms '

Latch Time t

LAT

V

IN

=

VCE=5.0V,

V

OUT

=0.8$V

OUT

(T)

Short Lx at 1% resistance

(*7)

1.0 - 20 ms -

Short Protection

Threshold Voltage

V

SHORT

Sweeping V

OUT

, VIN=VCE=5.0V, Short Lx at

1% resistance, V

OUT

voltage which Lx becomes “L”

level within 1ms

0.675 0.900 1.125 V -

Inductance Value L Test frequency =1MHz - 1.5 - &H

Allowed Inductor Current IDC 8T=40. - 1000 - mA

Test conditions: Unless otherwise stated, VIN=5.0V, VOUT (T)=Nominal Voltage
NOTE:

*1: Including hysteresis operating voltage range.
*2: EFFI = { ( output voltage$output current ) 9 ( input voltage$input current) }$100

*3: ON resistance (%)= (V

IN - Lx pin measurement voltage) 9 100mA

*4: Design value
*5: When temperature is high, a current of approximately 10&A (maximum) may leak.

*6: The CE/MODE pin of the XCL207 series works also as an external switching pin of PWM control and PWM/PFM control. When the IC is in the

operation, control is switched to the automatic PWM/PFM switching mode when the CE/MODE pin voltage is equal to or greater than V

IN minus

0.3V, and to the PWM mode when the CE/MODE pin voltage is equal to or lower than V

IN minus 1.0V and equal to or greater than VCEH.

*7: Time until it short-circuits V

OUT with GND via 1%of resistor from an operational state and is set to Lx=0V from current limit pulse generating.

*8: When V

IN is less than 2.4V, limit current may not be reached because voltage falls caused by ON resistance.

*9: When the difference between the input and the output is small, some cycles may be skipped completely before current maximizes.

If current is further pulled from this state, output voltage will decrease because of P-ch driver ON resistance.
*10: Current limit denotes the level of detection at peak of coil current.
*11: “H”=V

IN~VIN-1.2V, “L”=+0.1V~-0.1V

*12:

IPFM and DTY

LIMIT_PFM

are defined only for the XCL206 and XCL207 series which have PFM control function. (Not for the XCL 205 series)

*13: V

PWMH and VPWML are defined only for the XCL207 series. (They are not used in the XCL205/and XCL206 series)

!ELECTRICAL CHARACTERISTICS (Continued)

#XCL205A183AR/XCL206A183AR/XCL207A183AR, V

OUT

=1.8V, f

=3.0MHz, Ta=25Y=

OSC

XCL205/XCL206/XCL207

Series

5/26

PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS

CIRCUIT

Output Voltage

V

OUT

When connected to external components,
V

IN=VCE

=5.0V, I

OUT

=30mA

1.176 1.200 1.224 V '

Operating Voltage Range

V

IN

2.0 - 6.0 V '

Maximum Output Current

I

OUTMAX

V

IN=VOUT(T)

+2.0V, VCE=1.0V

When connected to external components

(*9)

600 - - mA '

UVLO Voltage

V

UVLO

V

CE=VIN,VOUT

=0V,

Voltage which Lx pin holding “L” level

(*1, *11)

1.00 1.40 1.78 V )

Supply Current (XCL205) - 46 65

Supply Current (XCL206, XCL207)

I

DD

VIN=VCE=5.0V, V

OUT=VOUT(T)

$1.1V

- 21 35

&A (

Stand-by Current

I

STB

V

IN

=5.0V, VCE=0V, V

OUT=VOUT(T)

$1.1V

- 0 1.0 &A (

Oscillation Frequency

f

OSC

When connected to external components,
V

IN

=V

OUT(T)

+2.0V,VCE=1.0V, I

OUT

=100mA

2550 3000 3450 kHz '

PFM Switching Current

(*12)

I

PFM

When connected to external components,
V

IN

=V

OUT(T)

+2.0V, VCE = VIN , I

OUT

=1mA

(*12)

190 260 350 mA 1

PFM Duty Limit

(*12)

DTY

LIMIT_PFM

V

CE=VIN

=(C-1) I

OUT

=1mA

(*12)

- 200 300 % '

Maximum Duty Cycle D

MAX

VIN=VCE=5.0V, V

OUT=VOUT (T)

$0.9V

100 - - % )

Minimum Duty Cycle D

MIN

V

IN=VCE

=5.0V, V

OUT=VOUT (T)

$1.1V

- - 0 % )

Efficiency

EFFI

When connected to external components,
V

CE=VIN2VOUT (T)

+1.2V, I

OUT

=100mA

- 82 - % '

Lx SW "H" ON Resistance 1

R

L3H

VIN=VCE=5.0V, V

OUT

=0V, ILX=100mA

(*3)

- 0.35 0.55 % *

Lx SW "H" ON Resistance 2

R

L3H

VIN=VCE=3.6V, V

OUT

=0V, ILX=100mA

(*3)

- 0.42 0.67 % *

Lx SW "L" ON Resistance 1

R

L3L

V

IN=VCE

=5.0V

(*4)

- 0.45 0.66 % -

Lx SW "L" ON Resistance 2

R

L3L

V

IN=VCE

= 3.6V

(*4)

- 0.52 0.77 % -

Lx SW "H" Leak Current

(*5)

ILeakH

VIN=V

OUT

=5.0V, VCE =0V, LX=0V

- 0.01 1.0 &A :

Current Limit

(*10)

I

LIM

V

IN=VCE

=5.0V, V

OUT=VOUT (T)

$0.9V

(*8)

900 1050 1350 mA ,

Output Voltage

Temperature Characteristics

4

V

OUT

/

(V

OUT

54

topr)

I

OUT

=30mA

-40./Topr/85.

- 0100 - ppm/ . '

CE "H" Voltage

V

CEH

V

OUT

=0V, Applied voltage to VCE,

Voltage changes Lx to “H” level

(*11)

0.65 - V

IN

V )

CE "L" Voltage

V

CEL

V

OUT

=0V, Applied voltage to VCE,

Voltage changes Lx to “L” level

(*11)

V

SS

- 0.25 V )

PWM "H" Level Voltage

(*13)

V

PWMH

When connected to external components,
I

OUT

=1mA

(*6),

Voltage which oscillation

frequency becomes 2550kHz/f

OSC

/3450kHz

(*13)

- - VIN - 1.0 V '

PWM "L" Level Voltage

(*13)

V

PWML

When connected to external components,
I

OUT

=1mA

(*6)

, Voltage which oscillation

frequency becomes f

OSC

62550kHz

(*13)

V

IN

-

0.25

- - V '

CE "H" Current

I

CEH

VIN=VCE=5.0V, V

OUT

=0V

- 0.1 - 0.1 &A +

CE "L" Current

I

CEL

VIN=5.0V, VCE=0V, V

OUT

=0V

- 0.1 - 0.1 &A +

Soft Start Time

t

SS

When connected to external components,
V

CE

=0V7VIN , I

OUT

=1mA

- 0.25 0.40 ms '

Latch Time

t

LAT

V

IN=VCE

=5.0V, V

OUT

=0.8$V

OUT(T)

Short Lx at 1% resistance

(*7)

1.0 - 20 ms -

Short Protection

Threshold Voltage

V

SHORT

Sweeping V

OUT

, VIN=VCE=5.0V, Short Lx at

1% resistance, V

OUT

voltage which Lx becomes “L”

level within 1ms

0.450 0.600 0.750 V -

CL Discharge

R

DCHG

V

IN

=5.0V, LX=5.0V, VCE=0V, V

OUT

=Open

200 300 450 % ;

Inductance Value

L

Test frequency =1MHz

- 1.5 - &H

Allowed Inductor Current IDC

8T=40.

- 1000 - mA

Test conditions: Unless otherwise stated, VIN=5.0V, VOUT (T) =Nominal Voltage
NOTE:

*1: Including hysteresis operating voltage range.
*2: EFFI = { ( output voltage$output current ) 9 ( input voltage$input current) }$100
*3: ON resistance (%)= (V

IN - Lx pin measurement voltage) 9 100mA

*4: Design value

*5: When temperature is high, a current of approximately 10&A (maximum) may leak.

*6: The CE/MODE pin of the XCL207 series works also as an external switching pin of PWM control and PWM/PFM control. When the IC is in the

operation, control is switched to the automatic PWM/PFM switching mode when the CE/MODE pin voltage is equal to or greater than V

IN minus

0.3V, and to the PWM mode when the CE/MODE pin voltage is equal to or lower than V

IN minus 1.0V and equal to or greater than VCEH.

*7: Time until it short-circuits V

OUT with GND via 1%of resistor from an operational state and is set to Lx=0V from current limit pulse generating.

*8: When V

IN is less than 2.4V, limit current may not be reached because voltage falls caused by ON resistance.

*9: When the difference between the input and the output is small, some cycles may be skipped completely before current maximizes.

If current is further pulled from this state, output voltage will decrease because of P-ch driver ON resistance.
*10: Current limit denotes the level of detection at peak of coil current.
*11: “H”=V

IN~VIN-1.2V, “L”=+0.1V~-0.1V

*12: I

PFM and DTY

LIMIT_PFM

are defined only for the XCL206 and XCL207 series which have PFM control function. (Not for the XCL 205 series)

*13: V

PWMH and VPWML are defined only for the XCL207 series. (They are not used in the XCL205/and XCL206 series)

XCL205/XCL206/XCL207

Series

!ELECTRICAL CHARACTERISTICS (Continued)

#XCL205B123AR/XCL206B123AR/ XCL207B123AR, V

OUT

=1.2V, f

=3.0MHz, Ta=25Y=

OSC

6/26

PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS

CIRCUIT

Output Voltage V

OUT

When connected to external components,
V

IN=VCE

=5.0V, I

OUT

=30mA

1.764 1.800 1.836 V '

Operating Voltage Range VIN 2.0 - 6.0 V '

Maximum Output Current I

OUTMAX

V

IN=VOUT(E)

+2.0V, VCE=1.0V

When connected to external components

(*9)

600 - - mA '

UVLO Voltage V

UVLO

V

CE=VIN,VOUT

=0V,

Voltage which Lx pin holding “L” level

(*1, *11)

1.00 1.40 1.78 V )

Supply Current (XCL205) - 46 65

Supply Current (XCL206, XCL207)

I

DD

VIN=VCE=5.0V, V

OUT=VOUT(T)

$1.1V

- 21 35

&A (

Stand-by Current I

STB

VIN=5.0V, VCE=0V, V

OUT=VOUT(T)

$1.1V - 0 1.0 &A (

Oscillation Frequency f

OSC

When connected to external components,
V

IN

=V

OUT(T)

+2.0V,VCE=1.0V, I

OUT

=100mA

2550 3000 3450 kHz '

PFM Switching Current

(*12)

I

PFM

When connected to external components,
V

IN

=V

OUT(T)

+2.0V, VCE = VIN , I

OUT

=1mA

(*12)

170 220 270 mA 1

PFM Duty Limit

(*12)

DTY

LIMIT_PFM

V

CE=VIN

=(C-1) I

OUT

=1mA

(*12)

- 200 300 % '

Maximum Duty Cycle D

MAX

VIN=VCE=5.0V, V

OUT=VOUT (T)

$0.9V 100 - - % )

Minimum Duty Cycle D

MIN

VIN=VCE=5.0V, V

OUT=VOUT (T)

$1.1V - - 0 % )

Efficiency EFFI

When connected to external components,
V

CE=VIN2VOUT (T)

+1.2V, I

OUT

=100mA

- 85 - % '

Lx SW "H" ON Resistance 1 R

L3H

VIN=VCE=5.0V, V

OUT

=0V, ILX=100mA

(*3)

- 0.35 0.55 % *

Lx SW "H" ON Resistance 2 R

L3H

VIN=VCE=3.6V, V

OUT

=0V, ILX=100mA

(*3)

- 0.42 0.67 % *

Lx SW "L" ON Resistance 1 R

L3L

VIN=VCE=5.0V

(*4)

- 0.45 0.66 % -

Lx SW "L" ON Resistance 2 R

L3L

VIN=VCE = 3.6V

(*4)

- 0.52 0.77 % -

Lx SW "H" Leak Current

(*5)

ILeakH VIN=V

OUT

=5.0V, VCE =0V, LX=0V - 0.01 1.0 &A :

Current Limit

(*10)

I

LIM

VIN=VCE=5.0V, V

OUT=VOUT (T)

$0.9V

(*8)

900 1050 1350 mA ,

Output Voltage

Temperature Characteristics

4

V

OUT

/

(V

OUT

54

topr)

I

OUT

=30mA

-40./Topr/85.

- 0100 - ppm/ . '

CE "H" Voltage V

CEH

V

OUT

=0V, Applied voltage to VCE,

Voltage changes Lx to “H” level

(*11)

0.65 - V

IN

V )

CE "L" Voltage V

CEL

V

OUT

=0V, Applied voltage to VCE,

Voltage changes Lx to “L” level

(*11)

V

SS

- 0.25 V )

PWM "H" Level Voltage

(*13)

V

PWMH

When connected to external components,
I

OUT

=1mA

(*6),

Voltage which oscillation

frequency becomes 2550kHz/f

OSC

/3450kHz

(*13)

- - VIN - 1.0 V '

PWM "L" Level Voltage

(*13)

V

PWML

When connected to external components,
I

OUT

=1mA

(*6)

, Voltage which oscillation

frequency becomes f

OSC

62550kHz

(*13)

V

IN

-

0.25

- - V '

CE "H" Current I

CEH

VIN=VCE=5.0V, V

OUT

=0V - 0.1 - 0.1 &A +

CE "L" Current I

CEL

VIN=5.0V, VCE=0V, V

OUT

=0V - 0.1 - 0.1 &A +

Soft Start Time tSS

When connected to external components,
V

CE

=0V7VIN , I

OUT

=1mA

- 0.32 0.50 ms '

Latch Time t

LAT

V

IN=VCE

=5.0V, V

OUT

=0.8$V

OUT(T)

Short Lx at 1% resistance

(*7)

1.0 - 20 ms -

Short Protection

Threshold Voltage

V

SHORT

Sweeping V

OUT

, VIN=VCE=5.0V, Short Lx at

1% resistance, V

OUT

voltage which Lx becomes “L”

level within 1ms

0.675 0.900 1.125 V -

CL Discharge R

DCHG

VIN=5.0V, LX=5.0V, VCE=0V, V

OUT

=Open 200 300 450 % ;

Inductance Value L Test frequency =1MHz - 1.5 - &H

Allowed Inductor Current

I

DC

8T=40. - 1000 - mA

Test conditions: Unless otherwise stated, VIN=5.0V, VOUT (T) = Nominal Voltage
NOTE:

*1: Including hysteresis operating voltage range.
*2: EFFI = { ( output voltage$output current ) 9 ( input voltage$input current) }$100
*3: ON resistance (%)= (V

IN - Lx pin measurement voltage) 9 100mA

*4: Design value

*5: When temperature is high, a current of approximately 10&A (maximum) may leak.

*6: The CE/MODE pin of the XCL207 series works also as an external switching pin of PWM control and PWM/PFM control. When the IC is in the

operation, control is switched to the automatic PWM/PFM switching mode when the CE/MODE pin voltage is equal to or greater than V

IN minus

0.3V, and to the PWM mode when the CE/MODE pin voltage is equal to or lower than V

IN minus 1.0V and equal to or greater than VCEH.

*7: Time until it short-circuits V

OUT with GND via 1%of resistor from an operational state and is set to Lx=0V from current limit pulse generating.

*8: When V

IN is less than 2.4V, limit current may not be reached because voltage falls caused by ON resistance.

*9: When the difference between the input and the output is small, some cycles may be skipped completely before current maximizes.

If current is further pulled from this state, output voltage will decrease because of P-ch driver ON resistance.
*10: Current limit denotes the level of detection at peak of coil current.
*11: “H”=V

IN~VIN-1.2V, “L”=+0.1V~-0.1V

*12: I

PFM and DTY

LIMIT_PFM

are defined only for the XCL206 and XCL207 series which have PFM control function. (Not for the XCL 205 series)

*13: V

PWMH and VPWML are defined only for the XCL207 series. (They are not used in the XCL205/and XCL206 series)

XCL205/XCL206/XCL207

!ELECTRICAL CHARACTERISTICS (Continued)

#XCL205 B183AR/XCL206 B183AR/ XCL207B183AR, V

=1.8V, f

OUT

=3.0MHz, Ta=25Y=

OSC

Series

7/26

PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS

CIRCUIT

Output Voltage V

OUT

When connected to external components,
V

IN

= VCE =5.0V, I

OUT

=30mA

1.176 1.200 1.224 V '

Operating Voltage Range

VIN 2.0 - 6.0 V '

Maximum Output Current

I

OUTMAX

V

IN=VOUT(E)

+2.0V, VCE=1.0V

When connected to external components

(*9)

600 - - mA '

UVLO Voltage V

UVLO

V

CE=VIN,VOUT

=0V,

Voltage which Lx pin holding “L” level

(*1, *11)

1.00 1.40 1.78 V )

Supply Current (XCL205) - 46 65

Supply Current (XCL206, XCL207)

I

DD

VIN =VCE=5.0V, V

OUT

= V

OUT(T)

$1.1V

21 35

&A (

Stand-by Current I

STB

VIN =5.0V, VCE=0V, V

OUT

= V

OUT(T)

$1.1V - 0 1.0 &A (

Oscillation Frequency

f

OSC

When connected to external components,
V

IN

=V

OUT(T)

+2.0V,VCE=1.0V, I

OUT

=100mA

2550 3000 3450 kHz '

PFM Switching Current

(*12)

I

PFM

When connected to external components,
V

IN

=V

OUT(T)

+2.0V, VCE = VIN , I

OUT

=1mA

190 260 350 mA 1

PFM Duty Limit

(*12)

DTY

LIMIT_PFM

VCE= VIN =(C-1) I

OUT

=1mA - 200 300 % '

Maximum Duty Cycle MAXDTY VIN = VCE =5.0V, V

OUT

= V

OUT (T)

$0.9V 100 - - % )

Minimum Duty Cycle MINDTY VIN = VCE =5.0V, V

OUT

= V

OUT (T)

$1.1V - - 0 % )

Efficiency EFFI

When connected to external components,
V

CE

= VIN 2 V

OUT (T)

+1.2V, I

OUT

= 100mA

- 82 - % '

Lx SW "H" ON Resistance 1

R

L3H

VIN = VCE = 5.0V, V

OUT

= 0V,ILX = 100mA

(*3)

- 0.35 0.55 % *

Lx SW "H" ON Resistance 2

R

L3H

VIN = VCE = 3.6V, V

OUT

= 0V,ILX = 100mA

(*3)

- 0.42 0.67 % *

Lx SW "L" ON Resistance 1

R

L3L

VIN = VCE = 5.0V

(*4)

- 0.45 0.66 % -

Lx SW "L" ON Resistance 2

R

L3L

VIN = VCE = 3.6V

(*4)

- 0.52 0.77 % -

Lx SW "H" Leak Current

(*5)

ILeakH VIN= V

OUT

=5.0V, VCE =0V, LX=0V - 0.01 1.0 &A :

Current Limit

(*10)

I

LIM

VIN = VCE= 5.0V, V

OUT

= V

OUT (T)

$0.9V

(*8)

900 1050 1350 mA ,

Output Voltage

Temperature Characteristics

4

V

OUT

/

(V

OUT

54

topr)

I

OUT

=30mA

-40./Topr/85.

- 0100 - ppm/ . '

CE "H" Voltage V

CEH

V

OUT

=0V, Applied voltage to VCE,

Voltage changes Lx to “H” level

(*11)

0.65 - 6.0 V )

CE "L" Voltage V

CEL

V

OUT

=0V, Applied voltage to VCE,

Voltage changes Lx to “L” level

(*11)

V

SS

- 0.25 V )

PWM "H" Level Voltage

(*13)

V

PWMH

When connected to external components,
I

OUT

=1mA

(*6),

Voltage which oscillation

frequency becomes 2550kHz/f

OSC

/3450kHz

(*13)

- - VIN - 1.0 V '

PWM "H" Level Voltage

(*13)

V

PWML

When connected to external components,
I

OUT

=1mA

(*6)

, Voltage which oscillation

frequency becomes f

OSC

62550kHz

(*13)

V

IN

-

0.25

- - V '

CE "H" Current I

CEH

VIN = VCE =5.0V, V

OUT

= 0V - 0.1 - 0.1 &A +

CE "L" Current I

CEL

VIN =5.0V, VCE = 0V, V

OUT

= 0V - 0.1 - 0.1 &A +

Soft Start Time

tSS

When connected to external components,
V

CE

=0V7VIN , I

OUT

=1mA

0.5 0.9 2.5 ms '

Latch Time

t

LAT

V

IN=VCE

=5.0V, V

OUT

=0.8$V

OUT(T)

Short Lx at 1% resistance

(*7)

1.0 - 20 ms -

Short Protection

Threshold Voltage

V

SHORT

Sweeping V

OUT

, VIN=VCE=5.0V, Short Lx at

1% resistance, V

OUT

voltage which Lx becomes “L”

level within 1ms

0.450 0.600 0.750 V -

CL Discharge

R

DCHG

VIN = 5.0V LX = 5.0V VCE = 0V V

OUT

= open 200 300 450 % ;

Inductance Value

L Test frequency=1MHz - 1.5 - &H -

Allowed Inductor Current IDC

8

T=40.

- 1000 - mA -

Test conditions: Unless otherwise stated, VIN=5.0V, VOUT (T) = Nominal Voltage
NOTE:

*1: Including hysteresis operating voltage range.
*2: EFFI = { ( output voltage$output current ) 9 ( input voltage$input current) }$100
*3: ON resistance (%)= (V

IN - Lx pin measurement voltage) 9 100mA

*4: Design value
*5: When temperature is high, a current of approximately 10&A (maximum) may leak.

*6: The CE/MODE pin of the XCL207 series works also as an external switching pin of PWM control and PWM/PFM control. When the IC is in the

operation, control is switched to the automatic PWM/PFM switching mode when the CE/MODE pin voltage is equal to or greater than V

IN minus

0.3V, and to the PWM mode when the CE/MODE pin voltage is equal to or lower than V

IN minus 1.0V and equal to or greater than VCEH.

*7: Time until it short-circuits V

OUT with GND via 1%of resistor from an operational state and is set to Lx=0V from current limit pulse generating.

*8: When V

IN is less than 2.4V, limit current may not be reached because voltage falls caused by ON resistance.

*9: When the difference between the input and the output is small, some cycles may be skipped completely before current maximizes.

If current is further pulled from this state, output voltage will decrease because of P-ch driver ON resistance.
*10: Current limit denotes the level of detection at peak of coil current.
*11: “H”=V

IN~VIN-1.2V, “L”=+0.1V~-0.1V

*12: I

PFM and DTY

LIMIT_PFM

are defined only for the XCL206 and XCL207 series which have PFM control function. (Not for the XCL 205 series)

*13: V

PWMH and VPWML are defined only for the XCL207 series. (They are not used in the XCL205/and XCL206 series)

XCL205/XCL206/XCL207

Series

!ELECTRICAL CHARACTERISTICS (Continued)

#XCL205C123AR/XCL206C123AR/ XCL207C123AR, V

OUT

=1.2V, f

=3.0MHz, Ta=25Y=

OSC

8/26